The pursuit of cleaner industrial processes often hinges on the development of highly efficient catalysts. In the realm of desulfurization, particularly for feedstocks like benzene and natural gas, advanced catalytic systems that combine multiple active components offer superior performance. NINGBO INNO PHARMCHEM CO.,LTD. is at the forefront of this innovation, specializing in catalysts that synergistically integrate elements such as Ruthenium (Ru), Palladium (Pd), and Zinc Oxide (ZnO).

Our Ru/Pd/ZnO desulfurization catalysts represent a significant advancement in removing sulfur-containing organic compounds. These catalysts are specifically designed for applications such as the purification of benzene, a critical step in the synthesis of fine chemicals. The presence of precious metals like Ru and Pd, supported on ZnO, enhances catalytic activity and selectivity, allowing for the effective removal of challenging impurities like thiophene. This not only ensures the purity required for downstream processes but also contributes to higher yields of valuable products like adipic acid and caprolactam. The ability of these catalysts to maintain performance at higher conversion rates underscores their advanced engineering.

Simultaneously, our ZnO-based catalysts, such as the TY-1/TYHZ-1 variant, are crucial for bulk sulfur removal in streams like natural gas and light naphtha. The high ZnO content in these catalysts provides an excellent platform for adsorbing sulfur compounds, offering a high sulfur absorption capacity. This makes them an economical and effective solution for large-scale industrial operations. The synergy between the metal oxides and active metals in these catalytic systems allows for a comprehensive approach to sulfur management, addressing diverse needs across the chemical and petrochemical industries. By understanding and leveraging the combined properties of these elements, NINGBO INNO PHARMCHEM CO.,LTD. provides robust solutions for ensuring feedstock purity and optimizing industrial processes through advanced catalytic desulfurization.